Changeset 6585 for trunk/MagicSoft/TDAS-Extractor

Timestamp:

02/18/05 11:02:34 (20 years ago)

Author:

gaug

Message:

*** empty log message ***

Location:

trunk/MagicSoft/TDAS-Extractor

Files:

• Calibration.tex (modified) (5 diffs)
• MonteCarlo.tex (modified) (3 diffs)
• Results.tex (modified) (1 diff)

trunk/MagicSoft/TDAS-Extractor/Calibration.tex

@@ -101 +101 @@
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 
-\subsection{Un-Calibrated Pixels and Events}
+\subsection{Un-Calibrated Pixels and Events \label{sec:uncalibrated}}
 
 The MAGIC calibration software incorporates a series of checks to sort out mal-functioning pixels. 
@@ -583 +583 @@
 \clearpage
 
-\subsection{Time Resolution}
+\subsection{Relative Arrival Time Calibration}
 
 The extractors \#17--33 are able to compute the arrival time of each pulse. The calibration LEDs
@@ -636 +636 @@
 One can see that the sliding window extractors yield double Gaussian structures, except for the 
 largest window sizes of 8 and 10 FADC slices. Even then, the distributions are not exactly Gaussian.
-The maximum position extracting spline also yields distributions which are not exactly Gaussian and seem 
-to miss the exact arrival time in quite some events. Only the position of the half-maximum gives the 
+The maximum position extracting spline also yields distributions which are not exactly Gaussian and seems 
+to miss the exact arrival time in some events. Only the position of the half-maximum gives the 
 expected result of a single Gaussian distribution.
 A similiar problem occurs in the case of the digital filter: If one takes the correct weights 
@@ -713 +713 @@
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 
+\subsection{Number of Outliers}
+
+As in section~\ref{sec:uncalibrated}, we tested the number of outliers from the Gaussian distribution
+in order to count how many times the extractor has failed to reconstruct the correct arrival time.
+
 \begin{figure}[htp]
 \centering
@@ -759 +764 @@
 
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
+
+\subsection{Time Resolution}
 
 \begin{figure}[htp]

trunk/MagicSoft/TDAS-Extractor/MonteCarlo.tex

@@ -143 +143 @@
 \end{figure}
 
+\clearpage
+
 \subsection{Charge Signals with and without Simulated Noise \label{sec:mc:chargenoise}}
 
@@ -169 +171 @@
 \end{figure}
 
+\clearpage
+
 \subsection{Arrival Times \label{sec:mc:times}}
 
@@ -202 +206 @@
 \label{TimeRes_DFSpline}
 \end{figure}
-
 
 

trunk/MagicSoft/TDAS-Extractor/Results.tex

@@ -46 +46 @@
 \hline                                
 23  & Spline Amplitude       & \ok & \no & \no & \ok & \ok & \ok   & \no & \no & \ok \\
-24  & Splne Int. (1,1.5)     & \ok & \ok & \ok & \ok & \ok & \best & \ok & \no & \no \\
+24  & Splne Int. (1,1.5)     & \ok & \ok & \ok & \ok & \ok & \best & \ok & \no & \ok \\
 25  & Spline Int. (2,3)      & \ok &\ok  & \best&\ok & \ok & \best & \ok & \ok & \no \\
 26  & Spline Int. (4,6)      & \ok &\ok  & \ok & \ok & \ok & \best & \ok & \ok & \no \\